%0 Journal Article
%T Ethylene production and oxidation in soils: a review<br>土壤乙烯产生和氧化的研究进展
%A XU Xingkai
%A YUAN Bin
%A WANG Yuesi
%A YANG Jianhong
%A <br>徐星凯
%A 袁斌
%A 王跃思
%A 杨剑虹
%J 生态学报
%D 2005
%I 
%X Ethylene(C_2H_4) as a phytohormone and one of volatile organic compounds can affect plant growth and the quality of atmospheric environment.Literature published shows that there are plenty of laboratory-based processes studies in the field of soil ethylene production and oxidation.However,field measures are still limited so far.The behavior of soil borne ethylene in terrestrial ecosystems may affect plant growth and atmospheric environment.The variations of atmospheric environment such as status of precipitation and temperature,and nitrogen and acid depositions,may induce a change in the soil physical and chemical and biological properties,thereby affecting the process of soil borne ethylene production and oxidation.This paper fully summarizes,based on previous publications,the effects of soil physical and chemical properties,C and N amendments,soil microorganisms and heavy metals on soil C_2H_4 production and oxidation.It also concisely describes the C_2H_4 production and oxidation in the rhizosphere soil and under different land uses.It has been proposed that some scientific researches should be intensified in the future such as the effects of acid and nitrogen depositions on the C_2H_4 production and oxidation in typical forest soils,and in situ measures of soil C_2H_4 production and oxidation under different land uses. The interaction should attract attention between the ethylene production and oxidation in soils,and soil physical and chemical and biological properties under different mature forests and during forest successions,and the relative contribution of soil microorganisms to the C_2H_4 production and oxidation is involved.These associated studies can improve human's scientific understanding about the ethylene production and oxidation in terrestrial soils,and are beneficial to obtaining effective methods which can reduce production potentials of ethylene in terrestrial soils.
%K soil
%K ethylene
%K production and oxidation
%K rhizosphere
%K land uses
%K atmospheric environment<br>土壤
%K 乙烯
%K 产生和氧化
%K 根际
%K 土地利用方式
%K 大气环境
%U http://www.alljournals.cn/get_abstract_url.aspx?pcid=90BA3D13E7F3BC869AC96FB3DA594E3FE34FBF7B8BC0E591&jid=FE163E5DB2274E5937319DE98913EC37&aid=762DC46FC97F6DD6&yid=2DD7160C83D0ACED&vid=C5154311167311FE&iid=59906B3B2830C2C5&sid=67B3FB59F3474223&eid=51C1C06ED4147660&journal_id=1000-0933&journal_name=生态学报&referenced_num=1&reference_num=35